xref: /freebsd/share/man/man9/bhnd.9 (revision ea69bf7f5d1f3fcf2966a79ba80fbc8189f261e9)
1.\" Copyright (c) 2015-2016 Landon Fuller <landonf@FreeBSD.org>
2.\" Copyright (c) 2017 The FreeBSD Foundation
3.\" All rights reserved.
4.\"
5.\" Portions of this documentation were written by Landon Fuller
6.\" under sponsorship from the FreeBSD Foundation.
7.\"
8.\" Redistribution and use in source and binary forms, with or without
9.\" modification, are permitted provided that the following conditions
10.\" are met:
11.\" 1. Redistributions of source code must retain the above copyright
12.\"    notice, this list of conditions and the following disclaimer.
13.\" 2. Redistributions in binary form must reproduce the above copyright
14.\"    notice, this list of conditions and the following disclaimer in the
15.\"    documentation and/or other materials provided with the distribution.
16.\"
17.\" THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
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20.\" ARE DISCLAIMED.  IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
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22.\" DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
23.\" OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
24.\" HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
25.\" LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
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29.\" $FreeBSD$
30.\"
31.Dd March 26, 2018
32.Dt BHND 9
33.Os
34.Sh NAME
35.Nm bhnd
36.Nd BHND driver programming interface
37.Sh SYNOPSIS
38.In dev/bhnd/bhnd.h
39.\"
40.Ss Bus Resource Functions
41.Ft int
42.Fo bhnd_activate_resource
43.Fa "device_t dev" "int type" "int rid" "struct bhnd_resource *r"
44.Fc
45.Ft "struct bhnd_resource *"
46.Fo bhnd_alloc_resource
47.Fa "device_t dev" "int type" "int *rid" "rman_res_t start" "rman_res_t end"
48.Fa "rman_res_t count" "u_int flags"
49.Fc
50.Ft "struct bhnd_resource *"
51.Fo bhnd_alloc_resource_any
52.Fa "device_t dev" "int type" "int *rid" "u_int flags"
53.Fc
54.Ft int
55.Fo bhnd_alloc_resources
56.Fa "device_t dev" "struct resource_spec *rs" "struct bhnd_resource **res"
57.Fc
58.Ft int
59.Fo bhnd_deactivate_resource
60.Fa "device_t dev" "int type" "int rid" "struct bhnd_resource *r"
61.Fc
62.Ft int
63.Fo bhnd_release_resource
64.Fa "device_t dev" "int type" "int rid" "struct bhnd_resource *r"
65.Fc
66.Ft void
67.Fo bhnd_release_resources
68.Fa "device_t dev" "const struct resource_spec *rs"
69.Fa "struct bhnd_resource **res"
70.Fc
71.\"
72.Ss "Bus Space Functions"
73.Ft void
74.Fo bhnd_bus_barrier
75.Fa "struct bhnd_resource *r" "bus_size_t offset"
76.Fa "bus_size_t length" "int flags"
77.Fc
78.Ft uint8_t
79.Fn bhnd_bus_read_1 "struct bhnd_resource *r" "bus_size_t offset"
80.Ft uint16_t
81.Fn bhnd_bus_read_2 "struct bhnd_resource *r" "bus_size_t offset"
82.Ft uint32_t
83.Fn bhnd_bus_read_4 "struct bhnd_resource *r" "bus_size_t offset"
84.Ft void
85.Fo bhnd_bus_read_multi_1
86.Fa "struct bhnd_resource *r" "bus_size_t offset" "uint8_t *datap"
87.Fa "bus_size_t count"
88.Fc
89.Ft void
90.Fo bhnd_bus_read_multi_2
91.Fa "struct bhnd_resource *r" "bus_size_t offset" "uint16_t *datap"
92.Fa "bus_size_t count"
93.Fc
94.Ft void
95.Fo bhnd_bus_read_multi_4
96.Fa "struct bhnd_resource *r" "bus_size_t offset" "uint32_t *datap"
97.Fa "bus_size_t count"
98.Fc
99.Ft void
100.Fo bhnd_bus_read_multi_stream_1
101.Fa "struct bhnd_resource *r" "bus_size_t offset" "uint8_t *datap"
102.Fa "bus_size_t count"
103.Fc
104.Ft void
105.Fo bhnd_bus_read_multi_stream_2
106.Fa "struct bhnd_resource *r" "bus_size_t offset" "uint16_t *datap"
107.Fa "bus_size_t count"
108.Fc
109.Ft void
110.Fo bhnd_bus_read_multi_stream_4
111.Fa "struct bhnd_resource *r" "bus_size_t offset" "uint32_t *datap"
112.Fa "bus_size_t count"
113.Fc
114.Ft void
115.Fo bhnd_bus_read_region_1
116.Fa "struct bhnd_resource *r" "bus_size_t offset" "uint8_t *datap"
117.Fa "bus_size_t count"
118.Fc
119.Ft void
120.Fo bhnd_bus_read_region_2
121.Fa "struct bhnd_resource *r" "bus_size_t offset" "uint16_t *datap"
122.Fa "bus_size_t count"
123.Fc
124.Ft void
125.Fo bhnd_bus_read_region_4
126.Fa "struct bhnd_resource *r" "bus_size_t offset" "uint32_t *datap"
127.Fa "bus_size_t count"
128.Fc
129.Ft void
130.Fo bhnd_bus_read_region_stream_1
131.Fa "struct bhnd_resource *r" "bus_size_t offset" "uint8_t *datap"
132.Fa "bus_size_t count"
133.Fc
134.Ft void
135.Fo bhnd_bus_read_region_stream_2
136.Fa "struct bhnd_resource *r" "bus_size_t offset" "uint16_t *datap"
137.Fa "bus_size_t count"
138.Fc
139.Ft void
140.Fo bhnd_bus_read_region_stream_4
141.Fa "struct bhnd_resource *r" "bus_size_t offset" "uint32_t *datap"
142.Fa "bus_size_t count"
143.Fc
144.Ft void
145.Fn bhnd_bus_read_stream_1 "struct bhnd_resource *r" "bus_size_t offset"
146.Ft void
147.Fn bhnd_bus_read_stream_2 "struct bhnd_resource *r" "bus_size_t offset"
148.Ft uint32_t
149.Fn bhnd_bus_read_stream_4 "struct bhnd_resource *r" "bus_size_t offset"
150.Ft void
151.Fo bhnd_bus_set_multi_1
152.Fa "struct bhnd_resource *r" "bus_size_t offset" "uint8_t value"
153.Fa "bus_size_t count"
154.Fc
155.Ft void
156.Fo bhnd_bus_set_multi_2
157.Fa "struct bhnd_resource *r" "bus_size_t offset" "uint16_t value"
158.Fa "bus_size_t count"
159.Fc
160.Ft void
161.Fo bhnd_bus_set_multi_4
162.Fa "struct bhnd_resource *r" "bus_size_t offset" "uint32_t value"
163.Fa "bus_size_t count"
164.Fc
165.Ft void
166.Fo bhnd_bus_set_region_1
167.Fa "struct bhnd_resource *r" "bus_size_t offset" "uint8_t value"
168.Fa "bus_size_t count"
169.Fc
170.Ft void
171.Fo bhnd_bus_set_region_2
172.Fa "struct bhnd_resource *r" "bus_size_t offset" "uint16_t value"
173.Fa "bus_size_t count"
174.Fc
175.Ft void
176.Fo bhnd_bus_set_region_4
177.Fa "struct bhnd_resource *r" "bus_size_t offset" "uint32_t value"
178.Fa "bus_size_t count"
179.Fc
180.Ft void
181.Fn bhnd_bus_write_1 "struct bhnd_resource *r" "uint8_t value"
182.Ft void
183.Fn bhnd_bus_write_2 "struct bhnd_resource *r" "uint16_t value"
184.Ft void
185.Fn bhnd_bus_write_4 "struct bhnd_resource *r" "uint32_t value"
186.Ft void
187.Fo bhnd_bus_write_multi_1
188.Fa "struct bhnd_resource *r" "bus_size_t offset" "uint8_t *datap"
189.Fa "bus_size_t count"
190.Fc
191.Ft void
192.Fo bhnd_bus_write_multi_2
193.Fa "struct bhnd_resource *r" "bus_size_t offset" "uint16_t *datap"
194.Fa "bus_size_t count"
195.Fc
196.Ft void
197.Fo bhnd_bus_write_multi_4
198.Fa "struct bhnd_resource *r" "bus_size_t offset" "uint32_t *datap"
199.Fa "bus_size_t count"
200.Fc
201.Ft void
202.Fo bhnd_bus_write_multi_stream_1
203.Fa "struct bhnd_resource *r" "bus_size_t offset" "uint8_t *datap"
204.Fa "bus_size_t count"
205.Fc
206.Ft void
207.Fo bhnd_bus_write_multi_stream_2
208.Fa "struct bhnd_resource *r" "bus_size_t offset" "uint16_t *datap"
209.Fa "bus_size_t count"
210.Fc
211.Ft void
212.Fo bhnd_bus_write_multi_stream_4
213.Fa "struct bhnd_resource *r" "bus_size_t offset" "uint32_t *datap"
214.Fa "bus_size_t count"
215.Fc
216.Ft void
217.Fo bhnd_bus_write_region_1
218.Fa "struct bhnd_resource *r" "bus_size_t offset" "uint8_t *datap"
219.Fa "bus_size_t count"
220.Fc
221.Ft void
222.Fo bhnd_bus_write_region_2
223.Fa "struct bhnd_resource *r" "bus_size_t offset" "uint16_t *datap"
224.Fa "bus_size_t count"
225.Fc
226.Ft void
227.Fo bhnd_bus_write_region_4
228.Fa "struct bhnd_resource *r" "bus_size_t offset" "uint32_t *datap"
229.Fa "bus_size_t count"
230.Fc
231.Ft void
232.Fo bhnd_bus_write_region_stream_1
233.Fa "struct bhnd_resource *r" "bus_size_t offset" "uint8_t *datap"
234.Fa "bus_size_t count"
235.Fc
236.Ft void
237.Fo bhnd_bus_write_region_stream_2
238.Fa "struct bhnd_resource *r" "bus_size_t offset" "uint16_t *datap"
239.Fa "bus_size_t count"
240.Fc
241.Ft void
242.Fo bhnd_bus_write_region_stream_4
243.Fa "struct bhnd_resource *r" "bus_size_t offset" "uint32_t *datap"
244.Fa "bus_size_t count"
245.Fc
246.Ft void
247.Fn bhnd_bus_write_stream_1 "struct bhnd_resource *r" "uint8_t value"
248.Ft void
249.Fn bhnd_bus_write_stream_2 "struct bhnd_resource *r" "uint16_t value"
250.Ft void
251.Fn bhnd_bus_write_stream_4 "struct bhnd_resource *r" "uint32_t value"
252.\"
253.Ss "Device Configuration Functions"
254.Ft int
255.Fn bhnd_read_ioctl "device_t dev" "uint16_t *ioctl"
256.Ft int
257.Fn bhnd_write_ioctl "device_t dev" "uint16_t value" "uint16_t mask"
258.Ft int
259.Fn bhnd_read_iost "device_t dev" "uint16_t *iost"
260.Ft uint32_t
261.Fo bhnd_read_config
262.Fa "device_t dev" "bus_size_t offset" "void *value" "u_int width"
263.Fc
264.Ft int
265.Fo bhnd_write_config
266.Fa "device_t dev" "bus_size_t offset" "const void *value" "u_int width"
267.Fc
268.Ft int
269.Fn bhnd_reset_hw "device_t dev" "uint16_t ioctl" "uint16_t reset_ioctl"
270.Ft int
271.Fn bhnd_suspend_hw "device_t dev" "uint16_t ioctl"
272.Ft bool
273.Fn bhnd_is_hw_suspended "device_t dev"
274.\"
275.Ss "Device Information Functions"
276.Ft bhnd_attach_type
277.Fo bhnd_get_attach_type
278.Fa "device_t dev"
279.Fc
280.Ft "const struct bhnd_chipid *"
281.Fo bhnd_get_chipid
282.Fa "device_t dev"
283.Fc
284.Ft bhnd_devclass_t
285.Fo bhnd_get_class
286.Fa "device_t dev"
287.Fc
288.Ft u_int
289.Fo bhnd_get_core_index
290.Fa "device_t dev"
291.Fc
292.Ft "struct bhnd_core_info"
293.Fo bhnd_get_core_info
294.Fa "device_t dev"
295.Fc
296.Ft int
297.Fo bhnd_get_core_unit
298.Fa "device_t dev"
299.Fc
300.Ft uint16_t
301.Fo bhnd_get_device
302.Fa "device_t dev"
303.Fc
304.Ft const char *
305.Fo bhnd_get_device_name
306.Fa "device_t dev"
307.Fc
308.Ft uint8_t
309.Fo bhnd_get_hwrev
310.Fa "device_t dev"
311.Fc
312.Ft uint16_t
313.Fo bhnd_get_vendor
314.Fa "device_t dev"
315.Fc
316.Ft const char *
317.Fo bhnd_get_vendor_name
318.Fa "device_t dev"
319.Fc
320.Ft int
321.Fo bhnd_read_board_info
322.Fa "device_t dev" "struct bhnd_board_info *info"
323.Fc
324.\"
325.Ss "Device Matching Functions"
326.Ft bool
327.Fo bhnd_board_matches
328.Fa "const struct bhnd_board_info *board" "const struct bhnd_board_match *desc"
329.Fc
330.Ft device_t
331.Fo bhnd_bus_match_child
332.Fa "device_t bus" "const struct bhnd_core_match *desc"
333.Fc
334.Ft bool
335.Fo bhnd_chip_matches
336.Fa "const struct bhnd_chipid *chip" "const struct bhnd_chip_match *desc"
337.Fc
338.Ft "struct bhnd_core_match"
339.Fo bhnd_core_get_match_desc
340.Fa "const struct bhnd_core_info *core"
341.Fc
342.Ft bool
343.Fo bhnd_core_matches
344.Fa "const struct bhnd_core_info *core" "const struct bhnd_core_match *desc"
345.Fc
346.Ft bool
347.Fo bhnd_cores_equal
348.Fa "const struct bhnd_core_info *lhs" "const struct bhnd_core_info *rhs"
349.Fc
350.Ft bool
351.Fo bhnd_hwrev_matches
352.Fa "uint16_t hwrev" "const struct bhnd_hwrev_match *desc"
353.Fc
354.Ft "const struct bhnd_core_info *"
355.Fo bhnd_match_core
356.Fa "const struct bhnd_core_info *cores" "u_int num_cores"
357.Fa "const struct bhnd_core_match *desc"
358.Fc
359.\"
360.Ss "Device Table Functions"
361.Ft "const struct bhnd_device *"
362.Fo bhnd_device_lookup
363.Fa "device_t dev" "const struct bhnd_device *table" "size_t entry_size"
364.Fc
365.Ft bool
366.Fo bhnd_device_matches
367.Fa "device_t dev" "const struct bhnd_device_match *desc"
368.Fc
369.Ft uint32_t
370.Fo bhnd_device_quirks
371.Fa "device_t dev" "const struct bhnd_device *table" "size_t entry_size"
372.Fc
373.Fo BHND_BOARD_QUIRK
374.Fa "board" "flags"
375.Fc
376.Fo BHND_CHIP_QUIRK
377.Fa "chip" "hwrev" "flags"
378.Fc
379.Fo BHND_CORE_QUIRK
380.Fa "hwrev" "flags"
381.Fc
382.Fo BHND_DEVICE
383.Fa "vendor" "device" "desc" "quirks" "..."
384.Fc
385.Fo BHND_DEVICE_IS_END
386.Fa "struct bhnd_device *d"
387.Fc
388.Fo BHND_DEVICE_QUIRK_IS_END
389.Fa "struct bhnd_device_quirk *q"
390.Fc
391.Fo BHND_PKG_QUIRK
392.Fa "chip" "pkg" "flags"
393.Fc
394.Bd -literal
395struct bhnd_device_quirk {
396	struct bhnd_device_match	desc;
397	uint32_t			quirks;
398};
399.Ed
400.Bd -literal
401struct bhnd_device {
402    const struct bhnd_device_match	 core;
403    const char				*desc;
404    const struct bhnd_device_quirk	*quirks_table;
405    uint32_t				 device_flags;
406};
407.Ed
408.Bd -literal
409enum {
410	BHND_DF_ANY	= 0,
411	BHND_DF_HOSTB	= (1 << 0),
412	BHND_DF_SOC	= (1 << 1),
413	BHND_DF_ADAPTER	= (1 << 2)
414};
415.Ed
416.Bd -literal
417#define BHND_DEVICE_END { { BHND_MATCH_ANY }, NULL, NULL, 0 }
418.Ed
419.Bd -literal
420#define BHND_DEVICE_QUIRK_END { { BHND_MATCH_ANY }, 0 }
421.Ed
422.\"
423.Ss "DMA Address Translation Functions"
424.Ft int
425.Fo bhnd_get_dma_translation
426.Fa "device_t dev" "u_int width" "uint32_t flags" "bus_dma_tag_t *dmat"
427.Fa "struct bhnd_dma_translation *translation"
428.Fc
429.Bd -literal
430struct bhnd_dma_translation {
431	bhnd_addr_t	base_addr;
432	bhnd_addr_t	addr_mask;
433	bhnd_addr_t	addrext_mask;
434	uint32_t	flags;
435};
436.Ed
437.Bd -literal
438typedef enum {
439	BHND_DMA_ADDR_30BIT	= 30,
440	BHND_DMA_ADDR_32BIT	= 32,
441	BHND_DMA_ADDR_64BIT	= 64
442} bhnd_dma_addrwidth;
443.Ed
444.Bd -literal
445enum bhnd_dma_translation_flags {
446	BHND_DMA_TRANSLATION_PHYSMAP		= (1<<0),
447	BHND_DMA_TRANSLATION_BYTESWAPPED	= (1<<1)
448};
449.Ed
450.\"
451.Ss "Interrupt Functions"
452.Ft u_int
453.Fo bhnd_get_intr_count
454.Fa "device_t dev"
455.Fc
456.Ft int
457.Fo bhnd_get_intr_ivec
458.Fa "device_t dev" "u_int intr" "u_int *ivec"
459.Fc
460.Ft int
461.Fo bhnd_map_intr
462.Fa "device_t dev" "u_int intr" "rman_res_t *irq"
463.Fc
464.Ft void
465.Fo bhnd_unmap_intr
466.Fa "device_t dev" "rman_res_t irq"
467.Fc
468.\"
469.Ss "NVRAM Functions"
470.Ft int
471.Fo bhnd_nvram_getvar
472.Fa "device_t dev" "const char *name" "void *buf" "size_t *len"
473.Fa "bhnd_nvram_type type"
474.Fc
475.Ft int
476.Fo bhnd_nvram_getvar_array
477.Fa "device_t dev" "const char *name" "void *buf" "size_t size"
478.Fa "bhnd_nvram_type type"
479.Fc
480.Ft int
481.Fo bhnd_nvram_getvar_int
482.Fa "device_t dev" "const char *name" "void *value" "int width"
483.Fc
484.Ft int
485.Fn bhnd_nvram_getvar_int8 "device_t dev" "const char *name" "int8_t *value"
486.Ft int
487.Fn bhnd_nvram_getvar_int16 "device_t dev" "const char *name" "int16_t *value"
488.Ft int
489.Fn bhnd_nvram_getvar_int32 "device_t dev" "const char *name" "int32_t *value"
490.Ft int
491.Fo bhnd_nvram_getvar_uint
492.Fa "device_t dev" "const char *name" "void *value" "int width"
493.Fc
494.Ft int
495.Fo bhnd_nvram_getvar_uint8
496.Fa "device_t dev" "const char *name" "uint8_t *value"
497.Fc
498.Ft int
499.Fo bhnd_nvram_getvar_uint16
500.Fa "device_t dev" "const char *name" "uint16_t *value"
501.Fc
502.Ft int
503.Fo bhnd_nvram_getvar_uint32
504.Fa "device_t dev" "const char *name" "uint32_t *value"
505.Fc
506.Ft int
507.Fo bhnd_nvram_getvar_str
508.Fa "device_t dev" "const char *name" "char *buf" "size_t len" "size_t *rlen"
509.Fc
510.Ft "const char *"
511.Fo bhnd_nvram_string_array_next
512.Fa "const char *inp" "size_t ilen" "const char *prev" "size_t *olen"
513.Fc
514.Bd -literal
515typedef enum {
516	BHND_NVRAM_TYPE_UINT8		= 0,
517	BHND_NVRAM_TYPE_UINT16		= 1,
518	BHND_NVRAM_TYPE_UINT32		= 2,
519	BHND_NVRAM_TYPE_UINT64		= 3,
520	BHND_NVRAM_TYPE_INT8		= 4,
521	BHND_NVRAM_TYPE_INT16		= 5,
522	BHND_NVRAM_TYPE_INT32		= 6,
523	BHND_NVRAM_TYPE_INT64		= 7,
524	BHND_NVRAM_TYPE_CHAR		= 8,
525	BHND_NVRAM_TYPE_STRING		= 9,
526	BHND_NVRAM_TYPE_BOOL		= 10,
527	BHND_NVRAM_TYPE_NULL		= 11,
528	BHND_NVRAM_TYPE_DATA		= 12
529	BHND_NVRAM_TYPE_UINT8_ARRAY	= 16,
530	BHND_NVRAM_TYPE_UINT16_ARRAY	= 17,
531	BHND_NVRAM_TYPE_UINT32_ARRAY	= 18,
532	BHND_NVRAM_TYPE_UINT64_ARRAY	= 19,
533	BHND_NVRAM_TYPE_INT8_ARRAY	= 20,
534	BHND_NVRAM_TYPE_INT16_ARRAY	= 21,
535	BHND_NVRAM_TYPE_INT32_ARRAY	= 22,
536	BHND_NVRAM_TYPE_INT64_ARRAY	= 23,
537	BHND_NVRAM_TYPE_CHAR_ARRAY	= 24,
538	BHND_NVRAM_TYPE_STRING_ARRAY	= 25,
539	BHND_NVRAM_TYPE_BOOL_ARRAY	= 26
540} bhnd_nvram_type;
541.Ed
542.\"
543.Ss "Port/Region Functions"
544.Ft int
545.Fo bhnd_decode_port_rid
546.Fa "device_t dev" "int type" "int rid" "bhnd_port_type *port_type"
547.Fa "u_int *port" "u_int *region"
548.Fc
549.Ft u_int
550.Fo bhnd_get_port_count
551.Fa "device_t dev" "bhnd_port_type type"
552.Fc
553.Ft int
554.Fo bhnd_get_port_rid
555.Fa "device_t dev" "bhnd_port_type type" "u_int port" "u_int region"
556.Fc
557.Ft int
558.Fo bhnd_get_region_addr
559.Fa "device_t dev" "bhnd_port_type port_type" "u_int port" "u_int region"
560.Fa "bhnd_addr_t *region_addr" "bhnd_size_t *region_size"
561.Fc
562.Ft u_int
563.Fo bhnd_get_region_count
564.Fa "device_t dev" "bhnd_port_type type" "u_int port"
565.Fc
566.Ft bool
567.Fo bhnd_is_region_valid
568.Fa "device_t dev" "bhnd_port_type type" "u_int port" "u_int region"
569.Fc
570.Bd -literal
571typedef enum {
572	BHND_PORT_DEVICE	= 0,
573	BHND_PORT_BRIDGE	= 1,
574	BHND_PORT_AGENT		= 2
575} bhnd_port_type;
576.Ed
577.\"
578.Ss "Power Management Functions"
579.Ft int
580.Fo bhnd_alloc_pmu
581.Fa "device_t dev"
582.Fc
583.Ft int
584.Fo bhnd_release_pmu
585.Fa "device_t dev"
586.Fc
587.Ft int
588.Fo bhnd_enable_clocks
589.Fa "device_t dev" "uint32_t clocks"
590.Fc
591.Ft int
592.Fo bhnd_request_clock
593.Fa "device_t dev" "bhnd_clock clock"
594.Fc
595.Ft int
596.Fo bhnd_get_clock_freq
597.Fa "device_t dev" "bhnd_clock clock" "u_int *freq"
598.Fc
599.Ft int
600.Fo bhnd_get_clock_latency
601.Fa "device_t dev" "bhnd_clock clock" "u_int *latency"
602.Fc
603.Ft int
604.Fo bhnd_request_ext_rsrc
605.Fa "device_t dev" "u_int rsrc"
606.Fc
607.Ft int
608.Fo bhnd_release_ext_rsrc
609.Fa "device_t dev" "u_int rsrc"
610.Fc
611.Bd -literal
612typedef enum {
613	BHND_CLOCK_DYN	= (1 << 0),
614	BHND_CLOCK_ILP	= (1 << 1),
615	BHND_CLOCK_ALP	= (1 << 2),
616	BHND_CLOCK_HT	= (1 << 3)
617} bhnd_clock;
618.Ed
619.\"
620.Ss "Service Provider Functions"
621.Ft int
622.Fo bhnd_register_provider
623.Fa "device_t dev" "bhnd_service_t service"
624.Fc
625.Ft int
626.Fo bhnd_deregister_provider
627.Fa "device_t dev" "bhnd_service_t service"
628.Fc
629.Ft device_t
630.Fo bhnd_retain_provider
631.Fa "device_t dev" "bhnd_service_t service"
632.Fc
633.Ft void
634.Fo bhnd_release_provider
635.Fa "device_t dev" "device_t provider" "bhnd_service_t service"
636.Fc
637.Bd -literal
638typedef enum {
639	BHND_SERVICE_CHIPC,
640	BHND_SERVICE_PWRCTL,
641	BHND_SERVICE_PMU,
642	BHND_SERVICE_NVRAM,
643	BHND_SERVICE_GPIO,
644	BHND_SERVICE_ANY	= 1000
645} bhnd_service_t;
646.Ed
647.\"
648.Ss "Utility Functions"
649.Ft "bhnd_erom_class_t *"
650.Fo bhnd_driver_get_erom_class
651.Fa "driver_t *driver"
652.Fc
653.Ft bhnd_devclass_t
654.Fo bhnd_find_core_class
655.Fa "uint16_t vendor" "uint16_t device"
656.Fc
657.Ft "const char *"
658.Fo bhnd_find_core_name
659.Fa "uint16_t vendor" "uint16_t device"
660.Fc
661.Ft bhnd_devclass_t
662.Fo bhnd_core_class
663.Fa "const struct bhnd_core_info *ci"
664.Fc
665.Ft "const char *"
666.Fo bhnd_core_name
667.Fa "const struct bhnd_core_info *ci"
668.Fc
669.Ft int
670.Fo bhnd_format_chip_id
671.Fa "char *buffer" "size_t size" "uint16_t chip_id"
672.Fc
673.Ft void
674.Fo bhnd_set_custom_core_desc
675.Fa "device_t dev" "const char *dev_name"
676.Fc
677.Ft void
678.Fo bhnd_set_default_core_desc
679.Fa "device_t dev"
680.Fc
681.Ft "const char *"
682.Fo bhnd_vendor_name
683.Fa "uint16_t vendor"
684.Fc
685.Bd -literal
686#define	BHND_CHIPID_MAX_NAMELEN	32
687.Ed
688.\"
689.Sh DESCRIPTION
690.Nm
691provides a unified bus and driver programming interface for the
692on-chip interconnects and IP cores found in Broadcom Home Networking Division
693(BHND) devices.
694.Pp
695The BHND device family consists of MIPS/ARM SoCs (System On a Chip) and
696host-connected chipsets based on a common library of Broadcom IP cores,
697connected via one of two on-chip backplane (hardware bus) architectures.
698.Pp
699Hardware designed prior to 2009 used Broadcom's
700.Dq SSB
701backplane architecture, based on Sonics Silicon's interconnect IP.
702Each core on the Sonics backplane vends a 4 KiB register block, containing both
703device-specific CSRs, and SSB-specific per-core device management
704(enable/reset/etc) registers.
705.Pp
706Subsequent hardware is based on Broadcom's
707.Dq BCMA
708backplane, based on ARM's AMBA IP.
709The IP cores used in earlier SSB-based devices were adapted for compatibility
710with the new backplane, with additional
711.Dq wrapper
712cores providing per-core device management functions in place of the SSB
713per-core management registers.
714.Pp
715When BHND hardware is used as a host-connected peripheral (e.g., in a PCI Wi-Fi
716card), the on-chip peripheral controller core is configured to operate as
717an endpoint device, bridging access to the SoC hardware:
718.Pp
719.Bl -dash -offset indent
720.It
721Host access to SoC address space is provided via a set of register windows
722(e.g., a set of configurable windows into SoC address space mapped via PCI BARs)
723.It
724DMA is supported by the bridge core's sparse mapping of host address space into
725the backplane address space.
726These address regions may be used as a target for the on-chip DMA engine.
727.It
728Any backplane interrupt vectors routed to the bridge core may be mapped by the
729bridge to host interrupts (e.g., PCI INTx/MSI/MSI-X).
730.El
731.Pp
732The
733.Nm
734driver programming interface \(em and
735.Xr bhndb 4
736host bridge drivers \(em support the implementation of common drivers for
737Broadcom IP cores, whether attached via a BHND host bridge, or via the native
738SoC backplane.
739.\"
740.Ss "Bus Resource Functions"
741The bhnd_resource functions are wrappers for the standard
742.Vt "struct resource"
743bus APIs, providing support for
744.Vt SYS_RES_MEMORY
745resources that, on
746.Xr bhndb 4
747bridged chipsets, may require on-demand remapping of address windows
748prior to accessing bus memory.
749.Pp
750These functions are primarily used in the implementation of BHND platform device
751drivers that, on host-connected peripherals, must share a small set of register
752windows during initial setup and teardown.
753.Pp
754BHND peripherals are designed to not require register window remapping
755during normal operation, and most drivers may safely use the standard
756.Vt struct resource
757APIs directly.
758.Pp
759The
760.Fn bhnd_activate_resource
761function activates a previously allocated resource.
762.Pp
763The arguments are as follows:
764.Bl -tag -width indent
765.It Fa dev
766The device holding ownership of the allocated resource.
767.It Fa type
768The type of the resource.
769.It Fa rid
770The bus-specific handle that identifies the resource being activated.
771.It Fa r
772A pointer to the resource returned by
773.Fn bhnd_alloc_resource .
774.El
775.Pp
776The
777.Fn bhnd_alloc_resource
778function allocates a resource from a device's parent
779.Xr bhnd 4
780bus.
781.Pp
782The arguments are as follows:
783.Bl -tag -width indent
784.It Fa dev
785The device requesting resource ownership.
786.It Fa type
787The type of resource to allocate.
788This may be any type supported by the standard
789.Xr bus_alloc_resource 9
790function.
791.It Fa rid
792The bus-specific handle identifying the resource being allocated.
793.It Fa start
794The start address of the resource.
795.It Fa end
796The end address of the resource.
797.It Fa count
798The size of the resource.
799.It Fa flags
800The flags for the resource to be allocated.
801These may be any values supported by the standard
802.Xr bus_alloc_resource 9
803function.
804.El
805.Pp
806To request that the bus supply the resource's default
807.Fa start ,
808.Fa end ,
809and
810.Fa count
811values, pass
812.Fa start
813and
814.Fa end
815values of 0ul and ~0ul respectively, and a
816.Fa count
817of 1.
818.Pp
819The
820.Fn bhnd_alloc_resource_any
821function is a convenience wrapper for
822.Fn bhnd_alloc_resource ,
823using the resource's default
824.Fa start ,
825.Fa end ,
826and
827.Fa count
828values.
829.Pp
830The arguments are as follows:
831.Bl -tag -width indent
832.It Fa dev
833The device requesting resource ownership.
834.It Fa type
835The type of resource to allocate.
836This may be any type supported by the standard
837.Xr bus_alloc_resource 9
838function.
839.It Fa rid
840The bus-specific handle identifying the resource being allocated.
841.It Fa flags
842The flags for the resource to be allocated.
843These may be any values supported by the standard
844.Xr bus_alloc_resource 9
845function.
846.El
847.Pp
848The
849.Fn bhnd_alloc_resources
850function allocates resources defined in resource specification from a device's
851parent
852.Xr bhnd 4
853bus.
854.Pp
855The arguments are as follows:
856.Bl -tag -width indent
857.It Fa dev
858The device requesting ownership of the resources.
859.It Fa rs
860A standard bus resource specification.
861If all requested resources, are successfully allocated,
862this will be updated with the allocated resource identifiers.
863.It Fa res
864If all requested resources are successfully allocated, this will be populated
865with the allocated
866.Vt "struct bhnd_resource"
867instances.
868.El
869.Pp
870The
871.Fn bhnd_deactivate_resource
872function deactivates a resource previously activated by.
873.Fn bhnd_activate_resource .
874The arguments are as follows:
875.Bl -tag -width indent
876.It Fa dev
877The device holding ownership of the activated resource.
878.It Fa type
879The type of the resource.
880.It Fa rid
881The bus-specific handle identifying the resource.
882.It Fa r
883A pointer to the resource returned by bhnd_alloc_resource.
884.El
885.Pp
886The
887.Fn bhnd_release_resource
888function frees a resource previously returned by
889.Fn bhnd_alloc_resource .
890The arguments are as follows:
891.Bl -tag -width indent
892.It Fa dev
893The device holding ownership of the resource.
894.It Fa type
895The type of the resource.
896.It Fa rid
897The bus-specific handle identifying the resource.
898.It Fa r
899A pointer to the resource returned by bhnd_alloc_resource.
900.El
901.Pp
902The
903.Fn bhnd_release_resources
904function frees resources previously returned by
905.Fn bhnd_alloc_resources .
906The arguments are as follows:
907.Bl -tag -width indent
908.It Fa dev
909The device that owns the resources.
910.It Fa rs
911A standard bus resource specification previously initialized by
912.Fn bhnd_alloc_resources .
913.It Fa res
914The resources to be released.
915.El
916.Pp
917The
918.Vt bhnd_resource
919structure contains the following fields:
920.Bl -tag -width "direct"
921.It Fa res
922A pointer to the bus
923.Vt struct resource .
924.It Fa direct
925If true, the resource requires bus window remapping before it is MMIO
926accessible.
927.El
928.Pp
929.\"
930.Ss "Bus Space Functions"
931The bhnd_bus_space functions wrap their equivalent
932.Xr bus_space 9
933counterparts, and provide support for accessing bus memory via
934.Vt "struct bhnd_resource".
935.Pp
936.Bl -ohang -offset indent -compact
937.It Fn bhnd_bus_barrier
938.It Fn bhnd_bus_[read|write]_[1|2|4]
939.It Fn bhnd_bus_[read_multi|write_multi]_[1|2|4]
940.It Fn bhnd_bus_[read_multi_stream|write_multi_stream]_[1|2|4]
941.It Fn bhnd_bus_[read_region|write_region]_[1|2|4]
942.It Fn bhnd_bus_[read_region_stream|write_region_stream]_[1|2|4]
943.It Fn bhnd_bus_[read_stream|write_stream]_[1|2|4]
944.It Fn bhnd_bus_[set_multi|set_stream]_[1|2|4]
945.El
946.Pp
947Drivers that do not rely on
948.Vt "struct bhnd_resource"
949should use the standard
950.Vt struct resource
951and
952.Xr bus_space 9
953APIs directly.
954.\"
955.Ss "Device Configuration Functions"
956The
957.Fn bhnd_read_ioctl
958function is used to read the I/O control register value of device
959.Fa dev ,
960returning the current value in
961.Fa ioctl .
962.Pp
963The
964.Fn bhnd_write_ioctl
965function is used to modify the I/O control register of
966.Fa dev .
967The new value of the register is computed by updating any bits set in
968.Fa mask
969to
970.Fa value .
971The following I/O control flags are supported:
972.Bl -tag -width ".Dv BHND_IOCTL_CLK_FORCE" -offset indent
973.It Dv BHND_IOCTL_BIST
974Initiate a built-in self-test (BIST).
975Must be cleared after BIST results are read via the IOST (I/O Status) register.
976.It Dv BHND_IOCTL_PME
977Enable posting of power management events by the core.
978.It Dv BHND_IOCTL_CLK_FORCE
979Force disable of clock gating, resulting in all clocks being distributed within
980the core.
981Should be set when asserting/deasserting reset to ensure the reset signal fully
982propagates to the entire core.
983.It Dv BHND_IOCTL_CLK_EN
984If cleared, the core clock will be disabled.
985Should be set during normal operation, and cleared when the core is held in
986reset.
987.It Dv BHND_IOCTL_CFLAGS
988The mask of IOCTL bits reserved for additional core-specific I/O control flags.
989.El
990.Pp
991The
992.Fn bhnd_read_iost
993function is used to read the I/O status register of device
994.Fa dev ,
995returning the current value in
996.Fa iost .
997The following I/O status flags are supported:
998.Bl -tag -width ".Dv BHND_IOST_BIST_DONE" -offset indent
999.It Dv BHND_IOST_BIST_DONE
1000Set upon BIST completion.
1001Will be cleared when the
1002.Dv BHND_IOCTL_BIST
1003flag of the I/O control register is cleared using
1004.Fn bhnd_write_ioctl .
1005.It Dv BHND_IOST_BIST_FAIL
1006Set upon detection of a BIST error; the value is unspecified if BIST has not
1007completed and
1008.Dv BHND_IOST_BIST_DONE
1009is not also set.
1010.It Dv BHND_IOST_CLK
1011Set if the core has required that clocked be ungated, or cleared otherwise.
1012The value is undefined if a core does not support clock gating.
1013.It Dv BHND_IOST_DMA64
1014Set if this core supports 64-bit DMA.
1015.It Dv BHND_IOST_CFLAGS
1016The mask of IOST bits reserved for additional core-specific I/O status flags.
1017.El
1018.Pp
1019The
1020.Fn bhnd_read_config
1021function is used to read a data item of
1022.Fa width
1023bytes at
1024.Fa offset
1025from the backplane-specific agent/config space of the device
1026.Fa dev .
1027.Pp
1028The
1029.Fn bhnd_write_config
1030function is used to write a data item of
1031.Fa width
1032bytes with
1033.Fa value
1034at
1035.Fa offset
1036from the backplane-specific agent/config space of the device
1037.Fa dev .
1038The requested
1039.Fa width
1040must be one of 1, 2, or 4 bytes.
1041.Pp
1042The agent/config space accessible via
1043.Fn bhnd_read_config
1044and
1045.Fn bhnd_write_config
1046is backplane-specific, and these functions should only be used for functionality
1047that is not available via another
1048.Nm
1049function.
1050.Pp
1051The
1052.Fn bhnd_suspend_hw
1053function transitions the device
1054.Fa dev
1055to a low power
1056.Dq RESET
1057state, writing
1058.Fa ioctl
1059to the I/O control flags of
1060.Fa dev .
1061The hardware may be brought out of this state using
1062.Fn bhnd_reset_hw .
1063.Pp
1064The
1065.Fn bhnd_reset_hw
1066function first transitions the device
1067.Fa dev
1068to a low power RESET state, writing
1069.Fa ioctl_reset
1070to the I/O control flags
1071of
1072.Fa dev ,
1073and then brings the device out of RESET, writing
1074.Fa ioctl
1075to the device's I/O control flags.
1076.Pp
1077The
1078.Fn bhnd_is_hw_suspended
1079function returns
1080.Dv true
1081if the device
1082.Fa dev
1083is currently held in a RESET state, or is otherwise not clocked.
1084Otherwise, it returns
1085.Dv false .
1086.Pp
1087Any outstanding per-device PMU requests made using
1088.Fn bhnd_enable_clocks ,
1089.Fn bhnd_request_clock ,
1090or
1091.Fn bhnd_request_ext_rsrc
1092will be released automatically upon placing a device into a RESET state.
1093.Ss "Device Information Functions"
1094The
1095.Fn bhnd_get_attach_type
1096function returns the attachment type of the parent
1097.Xr bhnd 4
1098bus of device
1099.Fa dev .
1100.Pp
1101The following attachment types are supported:
1102.Bl -hang -width ".Dv BHND_ATTACH_ADAPTER" -offset indent
1103.It Dv BHND_ATTACH_ADAPTER
1104The bus is resident on a bridged adapter, such as a PCI Wi-Fi device.
1105.It Dv BHND_ATTACH_NATIVE
1106The bus is resident on the native host, such as the primary or secondary bus of
1107an embedded SoC.
1108.El
1109.Pp
1110The
1111.Fn bhnd_get_chipid
1112function returns chip information from the parent
1113.Xr bhnd 4
1114bus of device
1115.Fa dev .
1116The returned
1117.Vt bhnd_chipid
1118struct contains the following fields:
1119.Pp
1120.Bl -tag -width "enum_addr" -offset indent
1121.It Fa chip_id
1122The chip identifier.
1123.It Fa chip_rev
1124The chip's hardware revision.
1125.It Fa chip_pkg
1126The chip's semiconductor package identifier.
1127.Pp
1128Several different physical semiconductor package variants may exist for a given
1129chip, each of which may require driver workarounds for hardware errata,
1130unpopulated components, etc.
1131.It Fa chip_type
1132The interconnect architecture used by this chip.
1133.It Fa chip_caps
1134The
1135.Nm
1136capability flags supported by this chip.
1137.It Fa enum_addr
1138The backplane enumeration address.
1139On SSB devices, this will be the base address of the first SSB core.
1140On BCMA devices, this will be the address of the enumeration ROM (EROM) core.
1141.It Fa ncores
1142The number of cores on the chip backplane, or 0 if unknown.
1143.El
1144.Pp
1145The following constants are defined for known
1146.Fa chip_type
1147values:
1148.Bl -tag -width ".Dv BHND_CHIPTYPE_BCMA_ALT" -offset indent -compact
1149.It Dv BHND_CHIPTYPE_SIBA
1150SSB interconnect.
1151.It Dv BHND_CHIPTYPE_BCMA
1152BCMA interconnect.
1153.It Dv BHND_CHIPTYPE_BCMA_ALT
1154BCMA-compatible variant found in Broadcom Northstar ARM SoCs.
1155.It Dv BHND_CHIPTYPE_UBUS
1156UBUS interconnect.
1157This BCMA-derived interconnect is found in Broadcom BCM33xx DOCSIS SoCs, and
1158BCM63xx xDSL SoCs.
1159UBUS is not currently supported by
1160.Xr bhnd 4 .
1161.El
1162.Pp
1163The following
1164.Fa chip_caps
1165flags are supported:
1166.Bl -tag -width ".Dv BHND_CAP_BP64" -offset indent -compact
1167.It Dv BHND_CAP_BP64
1168The backplane supports 64-bit addressing.
1169.It Dv BHND_CAP_PMU
1170PMU is present.
1171.El
1172.Pp
1173Additional symbolic constants for known
1174.Fa chip_id ,
1175.Fa chip_pkg ,
1176and
1177.Fa chip_type
1178values are defined in
1179.In dev/bhnd/bhnd_ids.h .
1180.Pp
1181The
1182.Fn bhnd_get_class
1183function returns the BHND class of device
1184.Fa dev ,
1185if the device's
1186.Em vendor
1187and
1188.Em device
1189identifiers are recognized.
1190Otherwise, returns
1191.Dv BHND_DEVCLASS_OTHER .
1192.Pp
1193One of the following device classes will be returned:
1194.Pp
1195.Bl -tag -width ".Dv BHND_DEVCLASS_SOC_ROUTER"  -offset indent -compact
1196.It Dv BHND_DEVCLASS_CC
1197ChipCommon I/O Controller
1198.It Dv BHND_DEVCLASS_CC_B
1199ChipCommon Auxiliary Controller
1200.It Dv BHND_DEVCLASS_PMU
1201PMU Controller
1202.It Dv BHND_DEVCLASS_PCI
1203PCI Host/Device Bridge
1204.It Dv BHND_DEVCLASS_PCIE
1205PCIe Host/Device Bridge
1206.It Dv BHND_DEVCLASS_PCCARD
1207PCMCIA Host/Device Bridge
1208.It Dv BHND_DEVCLASS_RAM
1209Internal RAM/SRAM
1210.It Dv BHND_DEVCLASS_MEMC
1211Memory Controller
1212.It Dv BHND_DEVCLASS_ENET
1213IEEE 802.3 MAC/PHY
1214.It Dv BHND_DEVCLASS_ENET_MAC
1215IEEE 802.3 MAC
1216.It Dv BHND_DEVCLASS_ENET_PHY
1217IEEE 802.3 PHY
1218.It Dv BHND_DEVCLASS_WLAN
1219IEEE 802.11 MAC/PHY/Radio
1220.It Dv BHND_DEVCLASS_WLAN_MAC
1221IEEE 802.11 MAC
1222.It Dv BHND_DEVCLASS_WLAN_PHY
1223IEEE 802.11 PHY
1224.It Dv BHND_DEVCLASS_CPU
1225CPU Core
1226.It Dv BHND_DEVCLASS_SOC_ROUTER
1227Interconnect Router
1228.It Dv BHND_DEVCLASS_SOC_BRIDGE
1229Interconnect Host Bridge
1230.It Dv BHND_DEVCLASS_EROM
1231Device Enumeration ROM
1232.It Dv BHND_DEVCLASS_NVRAM
1233NVRAM/Flash Controller
1234.It Dv BHND_DEVCLASS_SOFTMODEM
1235Analog/PSTN SoftModem Codec
1236.It Dv BHND_DEVCLASS_USB_HOST
1237USB Host Controller
1238.It Dv BHND_DEVCLASS_USB_DEV
1239USB Device Controller
1240.It Dv BHND_DEVCLASS_USB_DUAL
1241USB Host/Device Controller
1242.It Dv BHND_DEVCLASS_OTHER
1243Other / Unknown
1244.It Dv BHND_DEVCLASS_INVALID
1245Invalid Class
1246.El
1247.Pp
1248The
1249.Fn bhnd_get_core_info
1250function returns the core information for device
1251.Fa dev .
1252The returned
1253.Vt bhnd_core_info
1254structure contains the following fields:
1255.Pp
1256.Bl -tag -width "core_idx" -offset indent -compact
1257.It Fa vendor
1258Vendor identifier (JEP-106, ARM 4-bit continuation encoded)
1259.It Fa device
1260Device identifier
1261.It Fa hwrev
1262Hardware revision
1263.It Fa core_idx
1264Core index
1265.It Fa unit
1266Core unit
1267.El
1268.Pp
1269Symbolic constants for common vendor and device identifiers are defined in
1270.In dev/bhnd/bhnd_ids.h .
1271Common vendor identifiers include:
1272.Pp
1273.Bl -tag -width ".Dv BHND_MFGID_MIPS" -offset indent -compact
1274.It Dv BHND_MFGID_ARM
1275ARM
1276.It Dv BHND_MFGID_BCM
1277Broadcom
1278.It Dv BHND_MFGID_MIPS
1279MIPS
1280.El
1281.Pp
1282The
1283.Fn bhnd_get_core_index ,
1284.Fn bhnd_get_core_unit ,
1285.Fn bhnd_get_device ,
1286.Fn bhnd_get_hwrev ,
1287and
1288.Fn bhnd_get_vendor
1289functions are convenience wrappers for
1290.Fn bhnd_get_core_info ,
1291returning, respect the
1292.Fa core_idx ,
1293.Fa core_unit ,
1294.Fa device ,
1295.Fa hwrev ,
1296or
1297.Fa vendor
1298field from the
1299.Vt bhnd_core_info
1300structure.
1301.Pp
1302The
1303.Fn bhnd_get_device_name
1304function returns a human readable name for device
1305.Fa dev .
1306.Pp
1307The
1308.Fn bhnd_get_vendor_name
1309function returns a human readable name for the vendor of device
1310.Fa dev .
1311.Pp
1312The
1313.Fn bhnd_read_board_info
1314function attempts to read the board information for device
1315.Fa dev .
1316The board information will be returned in the location pointed to by
1317.Fa info
1318on success.
1319.Pp
1320The
1321.Vt bhnd_board_info
1322structure contains the following fields:
1323.Pp
1324.Bl -tag -width "board_srom_rev" -offset indent
1325.It Fa board_vendor
1326Vendor ID of the board manufacturer (PCI-SIG assigned).
1327.It Fa board_type
1328Board ID.
1329.It Fa board_devid
1330Device ID.
1331.It Fa board_rev
1332Board revision.
1333.It Fa board_srom_rev
1334Board SROM format revision.
1335.It Fa board_flags
1336Board flags (1)
1337.It Fa board_flags2
1338Board flags (2)
1339.It Fa board_flags3
1340Board flags (3)
1341.El
1342.Pp
1343The
1344.Fa board_devid
1345field is the Broadcom PCI device ID that most closely matches the
1346capabilities of the BHND device (if any).
1347.Pp
1348On PCI devices, the
1349.Fa board_vendor ,
1350.Fa board_type ,
1351and
1352.Fa board_devid
1353fields default to the PCI Subsystem Vendor ID, PCI Subsystem ID, and PCI
1354device ID, unless overridden in device NVRAM.
1355.Pp
1356On other devices, including SoCs, the
1357.Fa board_vendor ,
1358.Fa board_type ,
1359and
1360.Fa board_devid
1361fields will be populated from device NVRAM.
1362.Pp
1363Symbolic constants for common board flags are defined in
1364.In dev/bhnd/bhnd_ids.h .
1365.Pp
1366.Ss "Device Matching Functions"
1367The bhnd device matching functions are used to match against core, chip, and
1368board-level device attributes.
1369Match requirements are specified using the
1370.Vt "struct bhnd_board_match" ,
1371.Vt "struct bhnd_chip_match" ,
1372.Vt "struct bhnd_core_match" ,
1373.Vt "struct bhnd_device_match" ,
1374and
1375.Vt "struct bhnd_hwrev_match"
1376match descriptor structures.
1377.Pp
1378The
1379.Fn bhnd_board_matches
1380function returns
1381.Dv true
1382if
1383.Fa board
1384matches the board match descriptor
1385.Fa desc .
1386Otherwise, it returns
1387.Dv false .
1388.Pp
1389The
1390.Fn bhnd_chip_matches
1391function returns
1392.Dv true
1393if
1394.Fa chip
1395matches the chip match descriptor
1396.Fa desc .
1397Otherwise, it returns
1398.Dv false .
1399.Pp
1400The
1401.Fn bhnd_core_matches
1402function returns
1403.Dv true
1404if
1405.Fa core
1406matches the core match descriptor
1407.Fa desc .
1408Otherwise, it returns
1409.Dv false .
1410.Pp
1411The
1412.Fn bhnd_device_matches
1413function returns
1414.Dv true
1415if the device
1416.Fa dev
1417matches the device match descriptor
1418.Fa desc .
1419Otherwise, it returns
1420.Dv false .
1421.Pp
1422The
1423.Fn bhnd_hwrev_matches
1424function returns
1425.Dv true
1426if
1427.Fa hwrev
1428matches the hwrev match descriptor
1429.Fa desc .
1430Otherwise, it returns
1431.Dv false .
1432.Pp
1433The
1434.Fn bhnd_bus_match_child
1435function returns the first child device of
1436.Fa bus
1437that matches the device match descriptor
1438.Fa desc .
1439If no matching child is found,
1440.Dv NULL
1441is returned.
1442.Pp
1443The
1444.Fn bhnd_core_get_match_desc
1445function returns an equality match descriptor for the core info in
1446.Fa core .
1447The returned descriptor will match only on core attributes identical to those
1448defined by
1449.Fa core .
1450.Pp
1451The
1452.Fn bhnd_cores_equal
1453function is a convenience wrapper for
1454.Fn bhnd_core_matches
1455and
1456.Fn bhnd_core_get_match_desc .
1457This function returns
1458.Dv true
1459if the
1460.Vt bhnd_core_info
1461structures
1462.Fa lhs
1463and
1464.Fa rhs
1465are equal.
1466Otherwise, it returns
1467.Dv false .
1468.Pp
1469The
1470.Fn bhnd_match_core
1471function returns a pointer to the first entry in the array
1472.Fa cores
1473of length
1474.Fa num_cores
1475that matches
1476.Fa desc .
1477If no matching core is found,
1478.Dv NULL
1479is returned.
1480.Pp
1481A
1482.Vt bhnd_board_match
1483match descriptor may be initialized using one or more of the following macros:
1484.Pp
1485.Bl -tag -width "Fn BHND_MATCH_BOARD_VENDOR vendor" -offset indent
1486.It Fn BHND_MATCH_BOARD_VENDOR "vendor"
1487Match on boards with a vendor equal to
1488.Fa vendor .
1489.It Fn BHND_MATCH_BOARD_TYPE "type"
1490Match on boards with a type equal to
1491.Dv "BHND_BOARD_ ##"
1492.Fa type
1493.It Fn BHND_MATCH_SROMREV "sromrev"
1494Match on boards with a sromrev that matches
1495.Dv "BHND_HWREV_ ##"
1496.Fa sromrev .
1497.It Fn BHND_MATCH_BOARD_REV "hwrev"
1498Match on boards with hardware revisions that match
1499.Dv "BHND_ ##"
1500.Fa hwrev .
1501.It Fn BHND_MATCH_BOARD "vendor" "type"
1502A convenience wrapper for
1503.Fn BHND_MATCH_BOARD_VENDOR
1504and
1505.Fn BHND_MATCH_BOARD_TYPE .
1506.El
1507.Pp
1508For example:
1509.Bd -literal -offset indent
1510struct bhnd_board_match board_desc = {
1511	BHND_MATCH_BOARD_VENDOR(BHND_MFGID_BROADCOM),
1512	BHND_MATCH_BOARD_TYPE(BCM94360X52C),
1513	BHND_MATCH_BOARD_REV(HWREV_ANY),
1514	BHND_MATCH_SROMREV(RANGE(0, 10))
1515};
1516.Ed
1517.Pp
1518A
1519.Vt bhnd_chip_match
1520match descriptor may be initialized using one or more of the following macros:
1521.Pp
1522.Bl -tag -width "Fn BHND_MATCH_CHIP_IPR id pkg hwrev" -offset indent
1523.It Fn BHND_MATCH_CHIP_ID "id"
1524Match on chips with an ID equal to
1525.Dv "BHND_CHIPID_ ##"
1526.Fa id
1527.It Fn BHND_MATCH_CHIP_REV "hwrev"
1528Match on chips with hardware revisions that match
1529.Dv "BHND_ ##"
1530.Fa hwrev .
1531.It Fn BHND_MATCH_CHIP_PKG "pkg"
1532Match on chips with a package ID equal to
1533.Dv "BHND_PKGID_ ##"
1534.Fa pkg
1535.It Fn BHND_MATCH_CHIP_TYPE "type"
1536Match on chips with a chip type equal to
1537.Dv "BHND_CHIPTYPE_ ##"
1538.Fa type
1539.It Fn BHND_MATCH_CHIP_IP "id" "pkg"
1540A convenience wrapper for
1541.Fn BHND_MATCH_CHIP_ID
1542and
1543.Fn BHND_MATCH_CHIP_PKG .
1544.It Fn BHND_MATCH_CHIP_IPR "id" "pkg" "hwrev"
1545A convenience wrapper for
1546.Fn BHND_MATCH_CHIP_ID ,
1547.Fn BHND_MATCH_CHIP_PKG ,
1548and
1549.Fn BHND_MATCH_CHIP_REV .
1550.It Fn BHND_MATCH_CHIP_IR "id" "hwrev"
1551A convenience wrapper for
1552.Fn BHND_MATCH_CHIP_ID
1553and
1554.Fn BHND_MATCH_CHIP_REV .
1555.El
1556.Pp
1557For example:
1558.Bd -literal -offset indent
1559struct bhnd_chip_match chip_desc = {
1560	BHND_MATCH_CHIP_IP(BCM4329, BCM4329_289PIN),
1561	BHND_MATCH_CHIP_TYPE(SIBA)
1562};
1563.Ed
1564.Pp
1565A
1566.Vt bhnd_core_match
1567match descriptor may be initialized using one or more of the following macros:
1568.Pp
1569.Bl -tag -width "Fn BHND_MATCH_CORE_VENDOR vendor" -offset indent
1570.It Fn BHND_MATCH_CORE_VENDOR "vendor"
1571Match on cores with a vendor ID equal to
1572.Fa vendor
1573.It Fn BHND_MATCH_CORE_ID "id"
1574Match on cores with a device ID equal to
1575.Fa id
1576.It Fn BHND_MATCH_CORE_REV "hwrev"
1577Match on cores with hardware revisions that match
1578.Dv "BHND_ ##"
1579.Fa hwrev .
1580.It Fn BHND_MATCH_CORE_CLASS "class"
1581Match on cores with a core device class equal to
1582.Fa class
1583.It Fn BHND_MATCH_CORE_IDX "idx"
1584Match on cores with a core index equal to
1585.Fa idx
1586.It Fn BHND_MATCH_CORE_UNIT "unit"
1587Match on cores with a core unit equal to
1588.Fa unit
1589.It Fn BHND_MATCH_CORE "vendor" "id"
1590A convenience wrapper for
1591.Fn BHND_MATCH_CORE_VENDOR
1592and
1593.Fn BHND_MATCH_CORE_ID .
1594.El
1595.Pp
1596For example:
1597.Bd -literal -offset indent
1598struct bhnd_core_match core_desc = {
1599	BHND_MATCH_CORE(BHND_MFGID_BROADCOM, BHND_COREID_CC),
1600	BHND_MATCH_CORE_REV(HWREV_RANGE(0, 10))
1601};
1602.Ed
1603.Pp
1604The
1605.Vt bhnd_device_match
1606match descriptor supports matching on all board, chip, and core attributes,
1607and may be initialized using any of the
1608.Vt bhnd_board_match ,
1609.Vt bhnd_chip_match ,
1610or
1611.Vt bhnd_core_match
1612macros.
1613.Pp
1614For example:
1615.Bd -literal -offset indent
1616struct bhnd_device_match device_desc = {
1617	BHND_MATCH_CHIP_IP(BCM4329, BCM4329_289PIN),
1618	BHND_MATCH_BOARD_VENDOR(BHND_MFGID_BROADCOM),
1619	BHND_MATCH_BOARD_TYPE(BCM94329AGB),
1620	BHND_MATCH_CORE(BHND_MFGID_BROADCOM, BHND_COREID_CC),
1621};
1622.Ed
1623.Pp
1624A
1625.Vt bhnd_hwrev_match
1626match descriptor may be initialized using one of the following macros:
1627.Pp
1628.Bl -tag -width "Fn BHND_HWREV_RANGE start end" -offset indent -compact
1629.It Dv BHND_HWREV_ANY
1630Matches any hardware revision.
1631.It Fn BHND_HWREV_EQ "hwrev"
1632Matches any hardware revision equal to
1633.Fa hwrev
1634.It Fn BHND_HWREV_GTE "hwrev"
1635Matches any hardware revision greater than or equal to
1636.Fa hwrev
1637.It Fn BHND_HWREV_LTE "hwrev"
1638Matches any hardware revision less than or equal to
1639.Fa hwrev
1640.It Fn BHND_HWREV_RANGE "start" "end"
1641Matches any hardware revision within an inclusive range.
1642If
1643.Dv BHND_HWREV_INVALID
1644is specified as the
1645.Fa end
1646value, will match on any revision equal to or greater than
1647.Fa start
1648.El
1649.\"
1650.Ss "Device Table Functions"
1651The bhnd device table functions are used to query device and
1652quirk tables.
1653.Pp
1654The
1655.Fn bhnd_device_lookup
1656function returns a pointer to the first entry in device table
1657.Fa table
1658that matches the device
1659.Fa dev .
1660The table entry size is specified by
1661.Fa entry_size .
1662.Pp
1663The
1664.Fn bhnd_device_quirks
1665function scan the device table
1666.Fa table
1667for all quirk entries that match the device
1668.Fa dev ,
1669returning the bitwise OR of all matching quirk flags.
1670The table entry size is specified by
1671.Fa entry_size .
1672.Pp
1673The
1674.Vt bhnd_device
1675structure contains the following fields:
1676.Bl -tag -width "quirks_table" -offset indent -compact
1677.It Fa core
1678A
1679.Vt bhnd_device_match
1680descriptor.
1681.It Fa desc
1682A verbose device description suitable for use with
1683.Xr device_set_desc 9 ,
1684or
1685.Dv NULL .
1686.It Fa quirks_table
1687The quirks table for this device, or
1688.Dv NULL .
1689.It Fa device_flags
1690The device flags required when matching this entry.
1691.El
1692.Pp
1693The following device flags are supported:
1694.Bl -tag -width ".Dv BHND_DF_ADAPTER" -offset indent -compact
1695.It Dv BHND_DF_ANY
1696Match on any device.
1697.It Dv BHND_DF_HOSTB
1698Match only if the device is the
1699.Xr bhndb 4
1700host bridge.
1701Implies
1702.Dv BHND_DF_ADAPTER .
1703.It Dv BHND_DF_SOC
1704Match only if the device is attached to a native SoC backplane.
1705.It Dv BHND_DF_ADAPTER
1706Match only if the device is attached to a
1707.Xr bhndb 4
1708bridged backplane.
1709.El
1710.Pp
1711A
1712.Vt bhnd_device
1713table entry may be initialized using one of the following macros:
1714.Pp
1715.Bl -ohang -offset indent
1716.It Fn BHND_DEVICE "vendor" "device" "desc" "quirks" "flags"
1717Match on devices with a vendor ID equal to
1718.Dv BHND_MFGID_ ##
1719.Fa vendor
1720and a core device ID equal to
1721.Dv BHND_COREID_ ##
1722.Fa device .
1723.Pp
1724The device's verbose description is specified by the
1725.Fa desc
1726argument, a pointer to the device-specific quirks table is specified by the
1727.Fa quirks
1728argument, and any required device flags may be provided in
1729.Fa flags .
1730The optional
1731.Fa flags
1732argument defaults to
1733.Dv BHND_DF_ANY
1734if omitted.
1735.It Dv BHND_DEVICE_END
1736Terminate the
1737.Vt bhnd_device
1738table.
1739.El
1740.Pp
1741For example:
1742.Bd -literal -offset indent
1743struct bhnd_device bhnd_usb11_devices[] = {
1744	BHND_DEVICE(BCM, USB, "Broadcom USB1.1 Controller",
1745	    bhnd_usb11_quirks),
1746	BHND_DEVICE_END
1747};
1748.Ed
1749.Pp
1750The
1751.Vt bhnd_device_quirk
1752structure contains the following fields:
1753.Bl -tag -width "quirks_table" -offset indent -compact
1754.It Fa desc
1755A
1756.Vt bhnd_device_match
1757descriptor.
1758.It Fa quirks
1759Applicable quirk flags.
1760.El
1761.Pp
1762A bhnd_device_quirk table entry may be initialized using one of the following
1763convenience macros:
1764.Bl -tag -width "Fn BHND_CHIP_QUIRK chip hwrev flags" -offset indent
1765.It Fn BHND_BOARD_QUIRK "board" "flags"
1766Set quirk flags
1767.Fa flags
1768on devices with a board type equal to
1769.Dv BHND_BOARD_ ##
1770.Fa board .
1771.It Fn BHND_CHIP_QUIRK "chip" "hwrev" "flags"
1772Set quirk flags
1773.Fa flags
1774on devices with a chip ID equal to
1775.Dv BHND_CHIPID_BCM ##
1776.Fa chip
1777and chip hardware revision that matches
1778.Dv BHND_ ##
1779.Fa hwrev .
1780.It Fn BHND_PKG_QUIRK "chip" "pkg" flags"
1781Set quirk flags
1782.Fa flags
1783on devices with a chip ID equal to
1784.Dv BHND_CHIPID_BCM ##
1785.Fa chip
1786and chip package equal to
1787.Dv BHND_ ## chip ##
1788.Fa pkg .
1789.It Fn BHND_CORE_QUIRK "hwrev" flags"
1790Set quirk flags
1791.Fa flags
1792on devices with a core hardware revision that matches
1793.Dv BHND_ ##
1794.Fa hwrev .
1795.El
1796For example:
1797.Bd -literal -offset indent
1798struct bhnd_device_quirk bhnd_usb11_quirks[] = {
1799	BHND_DEVICE(BCM, USB, "Broadcom USB1.1 Controller",
1800	    bhnd_usb11_quirks),
1801	BHND_DEVICE_END
1802};
1803.Ed
1804.Ss "DMA Address Translation Functions"
1805The
1806.Fn bhnd_get_dma_translation
1807function is used to request a DMA address translation descriptor suitable
1808for use with a maximum DMA address width of
1809.Fa width ,
1810with support for the requested translation
1811.Fa flags .
1812.Pp
1813If a suitable DMA address translation descriptor is found, it will be stored in
1814.Fa translation ,
1815and a bus DMA tag specifying the DMA translation's address restrictions will
1816be stored in
1817.Fa dmat .
1818The
1819.Fa translation
1820and
1821.Fa dmat
1822arguments may be
1823.Dv NULL
1824if the translation descriptor or DMA tag are not desired.
1825.Pp
1826The following DMA translation flags are supported:
1827.Bl -ohang -width ".Dv BHND_DMA_TRANSLATION_BYTESWAPPED" -offset indent
1828.It Dv BHND_DMA_TRANSLATION_PHYSMAP
1829The translation remaps the device's physical address space.
1830.Pp
1831This is used in conjunction with
1832.Dv BHND_DMA_TRANSLATION_BYTESWAPPED
1833to define a DMA translation that provides byteswapped access to physical memory
1834on big-endian MIPS SoCs.
1835.It Dv BHND_DMA_TRANSLATION_BYTESWAPPED
1836The translation provides a byte-swapped mapping; write requests will be
1837byte-swapped before being written to memory, and read requests will be
1838byte-swapped before being returned.
1839.Pp
1840This is primarily used to perform efficient byte swapping of DMA data on
1841embedded MIPS SoCs executing in big-endian mode.
1842.El
1843.Pp
1844The following symbolic constants are defined for common DMA address widths:
1845.Pp
1846.Bl -tag -width ".Dv BHND_DMA_ADDR_64BIT" -offset indent -compact
1847.It Dv BHND_DMA_ADDR_30BIT
184830-bit DMA
1849.It Dv BHND_DMA_ADDR_32BIT
185032-bit DMA
1851.It Dv BHND_DMA_ADDR_64BIT
185264-bit DMA
1853.El
1854.Pp
1855The
1856.Vt bhnd_dma_translation
1857structure contains the following fields:
1858.Bl -tag -width "addrext_mask"
1859.It Fa base_addr
1860Host-to-device physical address translation.
1861This may be added to a host physical address to produce a device DMA address.
1862.It Fa addr_mask
1863Device-addressable address mask.
1864This defines the device DMA address range, and excludes any bits reserved for
1865mapping the address within the translation window at
1866.Fa base_addr .
1867.It Fa addrext_mask
1868Device-addressable extended address mask.
1869If a the per-core BHND DMA engine supports the 'addrext' control field, it can
1870be used to provide address bits excluded by
1871.Fa addr_mask .
1872.Pp
1873Support for DMA extended address changes \(em including coordination with the
1874core providing device-to-host DMA address translation \(em is handled
1875transparently by the DMA engine.
1876.Pp
1877For example, on PCI Wi-Fi devices, the Wi-Fi core's DMA engine will (in effect)
1878update the PCI host bridge core's DMA
1879.Dv sbtopcitranslation
1880base address to map the target address prior to performing a DMA transaction.
1881.It Fa flags
1882Translation flags.
1883.El
1884.\"
1885.Ss "Interrupt Functions"
1886The
1887.Fn bhnd_get_intr_count
1888function is used to determine the number of backplane interrupt lines assigned
1889to the device
1890.Fa dev .
1891Interrupt line identifiers are allocated in monotonically increasing order,
1892starting with 0.
1893.Pp
1894The
1895.Fn bhnd_get_intr_ivec
1896function is used to determine the backplane interrupt vector assigned to
1897interrupt line
1898.Fa intr
1899on the device
1900.Fa dev ,
1901writing the result to
1902.Fa ivec .
1903Interrupt vector assignments are backplane-specific: On BCMA devices, this
1904function returns the OOB bus line assigned to the interrupt.
1905On SIBA devices, it returns the target OCP slave flag number assigned to the
1906interrupt.
1907.Pp
1908The
1909.Fn bhnd_map_intr
1910function is used to map interrupt line
1911.Fa intr
1912assigned to device
1913.Fa dev
1914to an IRQ number, writing the result to
1915.Fa irq .
1916Until unmapped, this IRQ may be used when allocating a resource of type
1917SYS_RES_IRQ.
1918.Pp
1919Ownership of the interrupt mapping is assumed by the caller, and must be
1920explicitly released using
1921.Fa bhnd_unmap_intr .
1922.Pp
1923The
1924.Fn bhnd_unmap_intr
1925function is used to unmap bus IRQ
1926.Fa irq
1927previously mapped using
1928.Fn bhnd_map_intr
1929by the device
1930.Fa dev .
1931.\"
1932.Ss "NVRAM Functions"
1933The
1934.Fn bhnd_nvram_getvar
1935function is used to read the value of NVRAM variable
1936.Fa name
1937from the NVRAM provider(s) registered with the parent
1938.Xr bhnd 4
1939bus of device
1940.Fa dev ,
1941coerced to the desired data representation
1942.Fa type ,
1943written to the buffer specified by
1944.Fa buf .
1945.Pp
1946Before the call, the maximum capacity of
1947.Fa buf
1948is specified by
1949.Fa len .
1950After a successful call \(em or if
1951.Er ENOMEM
1952is returned \(em the size of the available data will be written to
1953.Fa len .
1954The size of the desired data representation can be determined by calling
1955.Fn bhnd_nvram_getvar
1956with a
1957.Dv NULL
1958argument for
1959.Fa buf .
1960.Pp
1961The following NVRAM data types are supported:
1962.Pp
1963.Bl -tag -width ".Dv BHND_NVRAM_TYPE_UINT64_ARRAY" -offset indent -compact
1964.It Dv BHND_NVRAM_TYPE_UINT8
1965unsigned 8-bit integer
1966.It Dv BHND_NVRAM_TYPE_UINT16
1967unsigned 16-bit integer
1968.It Dv BHND_NVRAM_TYPE_UINT32
1969unsigned 32-bit integer
1970.It Dv BHND_NVRAM_TYPE_UINT64
1971signed 64-bit integer
1972.It Dv BHND_NVRAM_TYPE_INT8
1973signed 8-bit integer
1974.It Dv BHND_NVRAM_TYPE_INT16
1975signed 16-bit integer
1976.It Dv BHND_NVRAM_TYPE_INT32
1977signed 32-bit integer
1978.It Dv BHND_NVRAM_TYPE_INT64
1979signed 64-bit integer
1980.It Dv BHND_NVRAM_TYPE_CHAR
1981UTF-8 character
1982.It Dv BHND_NVRAM_TYPE_STRING
1983UTF-8 NUL-terminated string
1984.It Dv BHND_NVRAM_TYPE_BOOL
1985uint8 boolean value
1986.It Dv BHND_NVRAM_TYPE_NULL
1987NULL (empty) value
1988.It Dv BHND_NVRAM_TYPE_DATA
1989opaque octet string
1990.It Dv BHND_NVRAM_TYPE_UINT8_ARRAY
1991array of uint8 integers
1992.It Dv BHND_NVRAM_TYPE_UINT16_ARRAY
1993array of uint16 integers
1994.It Dv BHND_NVRAM_TYPE_UINT32_ARRAY
1995array of uint32 integers
1996.It Dv BHND_NVRAM_TYPE_UINT64_ARRAY
1997array of uint64 integers
1998.It Dv BHND_NVRAM_TYPE_INT8_ARRAY
1999array of int8 integers
2000.It Dv BHND_NVRAM_TYPE_INT16_ARRAY
2001array of int16 integers
2002.It Dv BHND_NVRAM_TYPE_INT32_ARRAY
2003array of int32 integers
2004.It Dv BHND_NVRAM_TYPE_INT64_ARRAY
2005array of int64 integers
2006.It Dv BHND_NVRAM_TYPE_CHAR_ARRAY
2007array of UTF-8 characters
2008.It Dv BHND_NVRAM_TYPE_STRING_ARRAY
2009array of UTF-8 NUL-terminated strings
2010.It Dv BHND_NVRAM_TYPE_BOOL_ARRAY
2011array of uint8 boolean values
2012.El
2013.Pp
2014The
2015.Fn bhnd_nvram_getvar_array ,
2016.Fn bhnd_nvram_getvar_int ,
2017.Fn bhnd_nvram_getvar_int8 ,
2018.Fn bhnd_nvram_getvar_int16 ,
2019.Fn bhnd_nvram_getvar_int32 ,
2020.Fn bhnd_nvram_getvar_uint ,
2021.Fn bhnd_nvram_getvar_uint8 ,
2022.Fn bhnd_nvram_getvar_uint16 ,
2023.Fn bhnd_nvram_getvar_uint32 ,
2024and
2025.Fn bhnd_nvram_getvar_str
2026functions are convenience wrappers for
2027.Fn bhnd_nvram_getvar .
2028.Pp
2029The
2030.Fn bhnd_nvram_getvar_array
2031function returns either a value of exactly
2032.Fa size
2033in
2034.Fa buf ,
2035or returns an error code of
2036.Er ENXIO
2037if the data representation is not exactly
2038.Fa size
2039in length.
2040.Pp
2041The
2042.Fn bhnd_nvram_getvar_int
2043and
2044.Fn bhnd_nvram_getvar_uint
2045functions return the value of NVRAM variable
2046.Fa name ,
2047coerced to a signed or unsigned integer
2048type of
2049.Fa width
2050(1, 2, or 4 bytes).
2051.Pp
2052The
2053.Fn bhnd_nvram_getvar_int8 ,
2054.Fn bhnd_nvram_getvar_int16 ,
2055.Fn bhnd_nvram_getvar_int32 ,
2056.Fn bhnd_nvram_getvar_uint ,
2057.Fn bhnd_nvram_getvar_uint8 ,
2058.Fn bhnd_nvram_getvar_uint16 ,
2059and
2060.Fn bhnd_nvram_getvar_uint32
2061functions return the value of NVRAM variable
2062.Fa name ,
2063coerced to a signed or unsigned 8, 16, or 32-bit integer type.
2064.Pp
2065The
2066.Fn bhnd_nvram_getvar_str
2067functions return the value of NVRAM variable
2068.Fa name ,
2069coerced to a NUL-terminated string.
2070.Pp
2071The
2072.Fn bhnd_nvram_string_array_next
2073function iterates over all strings in the
2074.Fa inp
2075.Dv BHND_NVRAM_TYPE_STRING_ARRAY
2076value.
2077The size of
2078.Fa inp ,
2079including any terminating NUL character(s), is specified using the
2080.Fa ilen
2081argument.
2082The
2083.Fa prev
2084argument should be either a string pointer previously returned by
2085.Fn bhnd_nvram_string_array_next ,
2086or
2087.Dv NULL
2088to begin iteration.
2089If
2090.Fa prev is not
2091.Dv NULL ,
2092the
2093.Fa olen
2094argument must be a pointer to the length previously returned by
2095.Fn bhnd_nvram_string_array_next .
2096On success, the next string element's length will be written to this pointer.
2097.\"
2098.Ss "Port/Region Functions"
2099Per-device interconnect memory mappings are identified by a combination of
2100.Em port type ,
2101.Em port number ,
2102and
2103.Em region number .
2104Port and memory region identifiers are allocated in monotonically increasing
2105order for each
2106.Em port type ,
2107starting with 0.
2108.Pp
2109The following port types are supported:
2110.Bl -tag -width ".Dv BHND_PORT_DEVICE" -offset indent
2111.It Dv BHND_PORT_DEVICE
2112Device memory.
2113The device's control/status registers are always mapped by the first device port
2114and region, and will be assigned a
2115.Dv SYS_RES_MEMORY
2116resource ID of 0.
2117.It Dv BHND_PORT_BRIDGE
2118Bridge memory.
2119.It Dv BHND_PORT_AGENT
2120Interconnect agent/wrapper.
2121.El
2122.Pp
2123The
2124.Fn bhnd_decode_port_rid
2125function is used to decode the resource ID
2126.Fa rid
2127assigned to device
2128.Fa dev ,
2129of resource type
2130.Fa type ,
2131writing the port type to
2132.Fa port_type ,
2133port number to
2134.Fa port ,
2135and region number
2136to
2137.Fa region .
2138.Pp
2139The
2140.Fn bhnd_get_port_count
2141function returns the number of ports of type
2142.Fa type
2143assigned to device
2144.Fa dev .
2145.Pp
2146The
2147.Fn bhnd_get_port_rid
2148function returns the resource ID for the
2149.Dv SYS_RES_MEMORY
2150resource mapping the
2151.Fa port
2152of
2153.Fa type
2154and
2155.Fa region
2156on device
2157.Fa dev ,
2158or -1 if the port or region are invalid, or do not have an assigned resource ID.
2159.Pp
2160The
2161.Fn bhnd_get_region_addr
2162function is used to determine the base address and size of the memory
2163.Fa region
2164on
2165.Fa port
2166of
2167.Fa type
2168assigned to
2169.Fa dev .
2170The region's base device address will be written to
2171.Fa region_addr ,
2172and the region size to
2173.Fa region_size .
2174.Pp
2175The
2176.Fn bhnd_get_region_count
2177function returns the number of memory regions mapped to
2178.Fa port
2179of
2180.Fa type
2181on device
2182.Fa dev .
2183.Pp
2184The
2185.Fn bhnd_is_region_valid
2186function returns
2187.Dv true
2188if
2189.Fa region
2190is a valid region mapped by
2191.Fa port
2192of
2193.Fa type
2194on device
2195.Fa dev .
2196.\"
2197.Ss "Power Management Functions"
2198Drivers must ask the parent
2199.Xr bhnd 4
2200bus to allocate device PMU state using
2201.Fn bhnd_alloc_pmu
2202before calling any another bhnd PMU functions.
2203.Pp
2204The
2205.Fn bhnd_alloc_pmu
2206function is used to allocate per-device PMU state and enable PMU request
2207handling for device
2208.Fa dev .
2209The memory region containing the device's PMU register block must be allocated
2210using
2211.Xr bus_alloc_resource 9
2212or
2213.Fn bhnd_alloc_resource
2214before calling
2215.Fn bhnd_alloc_pmu ,
2216and must not be released until after calling
2217.Fn bhnd_release_pmu .
2218.Pp
2219On all supported BHND hardware, the PMU register block is mapped by the device's
2220control/status registers in the first device port and region.
2221.Pp
2222The
2223.Fn bhnd_release_pmu
2224function releases the per-device PMU state previously allocated for device
2225.Fa dev
2226using
2227.Fn bhnd_alloc_pmu .
2228Any outstanding clock and external resource requests will be discarded upon
2229release of the device PMU state.
2230.Pp
2231The
2232.Fn bhnd_enable_clocks
2233function is used to request that
2234.Fa clocks
2235be powered up and routed to the backplane on behalf of device
2236.Fa dev .
2237This will power any clock sources required (e.g., XTAL, PLL, etc) and wait until
2238the requested clocks are stable.
2239If the request succeeds, any previous clock requests issued by
2240.Fa dev
2241will be discarded.
2242.Pp
2243The following clocks are supported, and may be combined using bitwise OR to
2244request multiple clocks:
2245.Pp
2246.Bl -tag -width ".Dv BHND_CLOCK_DYN" -offset indent
2247.It BHND_CLOCK_DYN
2248Dynamically select an appropriate clock source based on all outstanding clock
2249requests by any device attached to the parent
2250.Xr bhnd 4
2251bus.
2252.It BHND_CLOCK_ILP
2253Idle Low-Power (ILP) Clock.
2254May be used if no register access is required, or long request latency is
2255acceptable.
2256.It BHND_CLOCK_ALP
2257Active Low-Power (ALP) Clock.
2258Supports low-latency register access and low-rate DMA.
2259.It BHND_CLOCK_HT
2260High Throughput (HT) Clock.
2261Supports high bus throughput and lowest-latency register access.
2262.El
2263.Pp
2264The
2265.Fn bhnd_request_clock
2266function is used to request that
2267.Fa clock
2268(or faster) be powered up and routed to device
2269.Fa dev .
2270.Pp
2271The
2272.Fn bhnd_get_clock_freq
2273function is used to request the current clock frequency of
2274.Fa clock ,
2275writing the frequency in Hz to
2276.Fa freq .
2277.Pp
2278The
2279.Fn bhnd_get_clock_latency
2280function is used to determine the transition latency required for
2281.Fa clock ,
2282writing the latency in microseconds to
2283.Fa latency .
2284The
2285.Dv BHND_CLOCK_HT
2286latency value is suitable for use as the D11 Wi-Fi core
2287.Em fastpwrup_dly
2288value.
2289.Pp
2290The
2291.Fn bhnd_request_ext_rsrc
2292function is used to request that the external PMU-managed resource assigned to
2293device
2294.Fa dev ,
2295identified by device-specific identifier
2296.Fa rsrc ,
2297be powered up.
2298.Pp
2299The
2300.Fn bhnd_release_ext_rsrc
2301function releases any outstanding requests by device
2302.Fa dev
2303for the PMU-managed resource identified by device-specific identifier
2304.Fa rsrc .
2305If an external resource is shared by multiple devices, it will not be powered
2306down until all device requests are released.
2307.\"
2308.Ss "Service Provider Functions"
2309The
2310.Fn bhnd_register_provider
2311function is used to register device
2312.Fa dev
2313as a provider for platform
2314.Fa service
2315with the parent
2316.Xr bhnd 4
2317bus.
2318.Pp
2319The following service types are supported:
2320.Bl -tag -width ".Dv BHND_SERVICE_INVALID" -offset indent
2321.It Dv BHND_SERVICE_CHIPC
2322ChipCommon service.
2323The providing device must implement the bhnd_chipc interface.
2324.It Dv BHND_SERVICE_PWRCTL
2325Legacy PWRCTL service.
2326The providing device must implement the bhnd_pwrctl interface.
2327.It Dv BHND_SERVICE_PMU
2328PMU service.
2329The providing device must implement the bhnd_pmu interface.
2330.It Dv BHND_SERVICE_NVRAM
2331NVRAM service.
2332The providing device must implement the bhnd_nvram interface.
2333.It Dv BHND_SERVICE_GPIO
2334GPIO service.
2335The providing device must implement the standard
2336.Xr gpio 4
2337interface.
2338.It Dv BHND_SERVICE_ANY
2339Matches on any service type.
2340May be used with
2341.Fn bhnd_deregister_provider
2342to remove all service provider registrations for a device.
2343.El
2344.Pp
2345The
2346.Fn bhnd_deregister_provider
2347function attempts to remove provider registration for the device
2348.Fa dev
2349and
2350.Fa service .
2351If a
2352.Fa service
2353argument of
2354.Dv BHND_SERVICE_ANY
2355is specified, this function will attempt to remove
2356.Em all service provider registrations for
2357.Fa dev .
2358.Pp
2359The
2360.Fn bhnd_retain_provider
2361function retains and returns a reference to the provider registered for
2362.Fa service
2363with the parent
2364.Xr bhnd 4
2365bus of devce
2366.Fa dev ,
2367if available.
2368On success, the caller is responsible for releasing this provider reference
2369using
2370.Fn bhnd_release_provider .
2371The service provider is guaranteed to remain available until the provider
2372reference is released.
2373.Pp
2374The
2375.Fn bhnd_release_provider
2376function releases a reference to a
2377.Fa provider
2378for
2379.Fa service ,
2380previously retained by device
2381.Fa dev
2382using
2383.Fn bhnd_retain_provider .
2384.\"
2385.Ss "Utility Functions"
2386The
2387.Fn bhnd_driver_get_erom_class
2388function returns the
2389.Xr bhnd_erom 9
2390class for the device enumeration table format used by
2391.Xr bhnd 4
2392bus driver instance
2393.Fa driver .
2394If the driver does not support
2395.Xr bhnd_erom 9
2396device enumeration,
2397.Dv NULL
2398is returned.
2399.Pp
2400The
2401.Fn bhnd_find_core_class
2402function looks up the BHND class, if known, for the BHND vendor ID
2403.Fa vendor
2404and device ID
2405.Fa device .
2406.Pp
2407The
2408.Fn bhnd_find_core_name
2409function is used to fetch the human-readable name, if known, for the BHND core
2410with a vendor ID of
2411.Fa vendor
2412and device ID of
2413.Fa device .
2414.Pp
2415The
2416.Fn bhnd_core_class
2417and
2418.Fn bhnd_core_name
2419functions are convenience wrappers for
2420.Fn bhnd_find_core_class
2421and
2422.Fn bhnd_find_core_name ,
2423that use the
2424.Fa vendor
2425and
2426.Fa device
2427fields of the core info structure
2428.Fa ci .
2429.Pp
2430The
2431.Fn bhnd_format_chip_id
2432function writes a NUL-terminated human-readable representation of the BHND
2433.Fa chip_id
2434value to the specified
2435.Fa buffer
2436with a capacity of
2437.Fa size .
2438No more than
2439.Fa size-1
2440characters will be written, with the
2441.Fa size'th
2442character set to '\\0'.
2443A buffer size of
2444.Dv BHND_CHIPID_MAX_NAMELEN
2445is sufficient for any string representation produced using
2446.Fn bhnd_format_chip_id .
2447.Pp
2448The
2449.Fn bhnd_set_custom_core_desc
2450function uses the
2451.Xr bhnd 4
2452device identification of
2453.Fa dev ,
2454overriding the core name with the specified
2455.Fa dev_name ,
2456to populate the device's verbose description using
2457.Xr device_set_desc .
2458.Pp
2459The
2460.Fn bhnd_set_default_core_desc
2461function uses the
2462.Xr bhnd 4
2463device identification of
2464.Fa dev
2465to populate the device's verbose description using
2466.Xr device_set_desc .
2467.Pp
2468The
2469.Fn bhnd_vendor_name
2470function returns the human-readable name for the JEP-106, ARM 4-bit
2471continuation encoded manufacturer ID
2472.Fa vendor ,
2473if known.
2474.\"
2475.Sh RETURN VALUES
2476.Ss Bus Resource Functions
2477The
2478.Fn bhnd_activate_resource ,
2479.Fn bhnd_alloc_resources ,
2480.Fn bhnd_deactivate_resource ,
2481and
2482.Fn bhnd_release_resource
2483functions return 0 on success, otherwise an appropriate error code is returned.
2484.Pp
2485The
2486.Fn bhnd_alloc_resource
2487and
2488.Fn bhnd_alloc_resource_any
2489functions return a pointer to
2490.Vt "struct resource"
2491on success, a null pointer otherwise.
2492.\"
2493.Ss "Device Configuration Functions"
2494.Pp
2495The
2496.Fn bhnd_read_config
2497and
2498.Fn bhnd_write_config
2499functions return 0 on success, or one of the following values on error:
2500.Bl -tag -width Er
2501.It Bq Er EINVAL
2502The device is not a direct child of the
2503.Xr bhnd 4
2504bus
2505.It Bq Er EINVAL
2506The requested width is not one of 1, 2, or 4 bytes.
2507.It Bq Er ENODEV
2508Accessing agent/config space for the device is unsupported.
2509.It Bq Er EFAULT
2510The requested offset or width exceeds the bounds of the mapped agent/config
2511space.
2512.El
2513.Pp
2514The
2515.Fn bhnd_read_ioctl ,
2516.Fn bhnd_write_ioctl ,
2517.Fn bhnd_read_iost ,
2518.Fn bhnd_reset_hw ,
2519and
2520.Fn bhnd_suspend_hw
2521functions return 0 on success, otherwise an appropriate error code is returned.
2522.\"
2523.Ss "Device Information Functions"
2524.Pp
2525The
2526.Fn bhnd_read_board_info
2527function returns 0 on success, otherwise an appropriate error code is returned.
2528.\"
2529.Ss "DMA Address Translation Functions"
2530The
2531.Fn bhnd_get_dma_translation
2532function returns 0 on success, or one of the following values on error:
2533.Bl -tag -width Er
2534.It Bq Er ENODEV
2535DMA is not supported.
2536.It Bq Er ENOENT
2537No DMA translation matching the requested address width and translation flags
2538is available.
2539.El
2540.Pp
2541If fetching the requested DMA address translation otherwise fails, an
2542appropriate error code will be returned.
2543.\"
2544.Ss "Interrupt Functions"
2545.Pp
2546The
2547.Fn bhnd_get_intr_ivec
2548function returns
25490 on success, or
2550.Er ENXIO
2551if the requested interrupt line exceeds the number of interrupt lines assigned
2552to the device.
2553.Pp
2554The
2555.Fn bhnd_map_intr
2556function returns 0 on success, otherwise an appropriate error code is returned.
2557.\"
2558.Ss "NVRAM Functions"
2559The
2560.Fn bhnd_nvram_getvar ,
2561.Fn bhnd_nvram_getvar_array ,
2562.Fn bhnd_nvram_getvar_int ,
2563.Fn bhnd_nvram_getvar_int8 ,
2564.Fn bhnd_nvram_getvar_int16 ,
2565.Fn bhnd_nvram_getvar_int32 ,
2566.Fn bhnd_nvram_getvar_uint ,
2567.Fn bhnd_nvram_getvar_uint8 ,
2568.Fn bhnd_nvram_getvar_uint16 ,
2569and
2570.Fn bhnd_nvram_getvar_uint32
2571functions return 0 on success, or one of the following values on error:
2572.Bl -tag -width Er
2573.It Bq Er ENODEV
2574If an NVRAM provider has not been registered with the bus.
2575.It Bq Er ENOENT
2576The requested variable was not found.
2577.It Bq Er ENOMEM
2578If the buffer of size is too small to hold the requested value.
2579.It Bq Er EOPNOTSUPP
2580If the value's native type is incompatible with and cannot be coerced to the
2581requested type.
2582.It Bq Er ERANGE
2583If value coercion would overflow (or underflow) the requested type
2584.El
2585.Pp
2586If reading the variable otherwise fails, an appropriate error code will be
2587returned.
2588.\"
2589.Ss "Port/Region Functions"
2590The
2591.Fn bhnd_decode_port_rid
2592function returns
25930 on success, or an appropriate error code if no matching port/region is found.
2594.Pp
2595The
2596.Fn bhnd_get_port_rid
2597function returns the resource ID for the requested port and region,
2598or -1 if the port or region are invalid, or do not have an assigned resource ID.
2599.Pp
2600The
2601.Fn bhnd_get_region_addr
2602function returns
26030 on success, or an appropriate error code if no matching port/region is found.
2604.\"
2605.Ss "PMU Functions"
2606The
2607.Fn bhnd_alloc_pmu
2608function returns 0 on success, otherwise an appropriate error code is returned.
2609.Pp
2610The
2611.Fn bhnd_release_pmu
2612function returns 0 on success, otherwise an appropriate error code is returned,
2613and the core state will be left unmodified.
2614.Pp
2615The
2616.Fn bhnd_enable_clocks
2617and
2618.Fn bhnd_request_clock
2619functions return 0 on success, or one of the following values on error:
2620.Bl -tag -width Er
2621.It Bq Er ENODEV
2622An unsupported clock was requested.
2623.It Bq Er ENXIO
2624No PMU or PWRCTL provider has been registered with the bus.
2625.El
2626.Pp
2627The
2628.Fn bhnd_get_clock_freq
2629function returns 0 on success, or
2630.Er ENODEV
2631if the frequency for the specified clock is not available.
2632.Pp
2633The
2634.Fn bhnd_get_clock_latency
2635function returns 0 on success, or
2636.Er ENODEV
2637if the transition latency for the specified clock is not available.
2638.Pp
2639The
2640.Fn bhnd_request_ext_rsrc
2641and
2642.Fn bhnd_release_ext_rsrc
2643functions return 0 on success, otherwise an appropriate error code is returned.
2644.Pp
2645.\"
2646.Ss "Service Provider Functions"
2647The
2648.Fn bhnd_register_provider
2649function returns 0 on success,
2650.Er EEXIST
2651if an entry for service already exists, or an appropriate error code if
2652service registration otherwise fails.
2653.Pp
2654The
2655.Fn bhnd_deregister_provider
2656function returns 0 on success, or
2657.Er EBUSY
2658if active references to the service provider exist.
2659.Pp
2660The
2661.Fn bhnd_retain_provider
2662function returns a pointer to
2663.Vt "device_t"
2664on success, a null pointer if the requested provider is not registered.
2665.\"
2666.Ss "Utility Functions"
2667.Pp
2668The
2669.Fn bhnd_format_chip_id
2670function returns the total number of bytes written on success, or a negative
2671integer on failure.
2672.\"
2673.Sh SEE ALSO
2674.Xr bhnd 4
2675.Xr bhnd_erom 9
2676.Sh AUTHORS
2677.An -nosplit
2678The
2679.Nm
2680driver programming interface and this manual page were written by
2681.An Landon Fuller Aq Mt landonf@FreeBSD.org .
2682